Esempio n. 1
0
    void Set(const TCHAR *_name, const DownloadStatus *_download_status,
             bool _failed) {
      name = _name;

      TCHAR path[MAX_PATH];
      LocalPath(path, name);

      if (File::Exists(path)) {
        FormatByteSize(size.buffer(), size.capacity(),
                       File::GetSize(path));
#ifdef HAVE_POSIX
        FormatISO8601(last_modified.buffer(),
                      BrokenDateTime::FromUnixTimeUTC(File::GetLastModification(path)));
#else
        // XXX implement
        last_modified.clear();
#endif
      } else {
        size.clear();
        last_modified.clear();
      }

      downloading = _download_status != nullptr;
      if (downloading)
        download_status = *_download_status;

      failed = _failed;
    }
Esempio n. 2
0
static void
LoadString(const char *bytes, size_t length, StaticString<size> &dest)
{
  return LoadString(bytes, length, dest.buffer(), dest.capacity());
}
Esempio n. 3
0
void
WaypointInfoWidget::Prepare(ContainerWindow &parent, const PixelRect &rc)
{
  RowFormWidget::Prepare(parent, rc);

  const MoreData &basic = CommonInterface::Basic();
  const DerivedInfo &calculated = CommonInterface::Calculated();
  const ComputerSettings &settings = CommonInterface::GetComputerSettings();

  StaticString<64> buffer;

  if (!waypoint.comment.empty())
    AddMultiLine(waypoint.comment.c_str());

  if (waypoint.radio_frequency.IsDefined() &&
      waypoint.radio_frequency.Format(buffer.buffer(),
                                      buffer.capacity()) != nullptr) {
    buffer += _T(" MHz");
    AddReadOnly(_("Radio frequency"), nullptr, buffer);
  }

  if (waypoint.runway.IsDirectionDefined())
    buffer.UnsafeFormat(_T("%02u"), waypoint.runway.GetDirectionName());
  else
    buffer.clear();

  if (waypoint.runway.IsLengthDefined()) {
    if (!buffer.empty())
      buffer += _T("; ");

    TCHAR length_buffer[16];
    FormatSmallUserDistance(length_buffer,
                                   fixed(waypoint.runway.GetLength()));
    buffer += length_buffer;
  }

  if (!buffer.empty())
    AddReadOnly(_("Runway"), nullptr, buffer);

  if (FormatGeoPoint(waypoint.location,
                     buffer.buffer(), buffer.capacity()) != nullptr)
    AddReadOnly(_("Location"), nullptr, buffer);

  AddReadOnly(_("Elevation"), nullptr, FormatUserAltitude(waypoint.elevation));

  if (basic.time_available && basic.date_time_utc.IsDatePlausible()) {
    const SunEphemeris::Result sun =
      SunEphemeris::CalcSunTimes(waypoint.location, basic.date_time_utc,
                                 settings.utc_offset);

    const BrokenTime sunrise = BreakHourOfDay(sun.time_of_sunrise);
    const BrokenTime sunset = BreakHourOfDay(sun.time_of_sunset);

    buffer.UnsafeFormat(_T("%02u:%02u - %02u:%02u"),
                        sunrise.hour, sunrise.minute,
                        sunset.hour, sunset.minute);
    AddReadOnly(_("Daylight time"), nullptr, buffer);
  }

  if (basic.location_available) {
    const GeoVector vector = basic.location.DistanceBearing(waypoint.location);

    TCHAR distance_buffer[32];
    FormatUserDistanceSmart(vector.distance, distance_buffer,
                                   ARRAY_SIZE(distance_buffer));

    FormatBearing(buffer.buffer(), buffer.capacity(),
                  vector.bearing, distance_buffer);
    AddReadOnly(_("Bearing and Distance"), nullptr, buffer);
  }

  if (basic.location_available && basic.NavAltitudeAvailable() &&
      settings.polar.glide_polar_task.IsValid()) {
    const GlideState glide_state(basic.location.DistanceBearing(waypoint.location),
                                 waypoint.elevation + settings.task.safety_height_arrival,
                                 basic.nav_altitude,
                                 calculated.GetWindOrZero());

    GlidePolar gp0 = settings.polar.glide_polar_task;
    gp0.SetMC(fixed(0));
    AddGlideResult(_("Alt. diff. MC 0"),
                   MacCready::Solve(settings.task.glide,
                                    gp0, glide_state));

    AddGlideResult(_("Alt. diff. MC safety"),
                   MacCready::Solve(settings.task.glide,
                                    calculated.glide_polar_safety,
                                    glide_state));

    AddGlideResult(_("Alt. diff. MC current"),
                   MacCready::Solve(settings.task.glide,
                                    settings.polar.glide_polar_task,
                                    glide_state));
  }

  if (basic.location_available && basic.NavAltitudeAvailable()) {
    const TaskBehaviour &task_behaviour =
      CommonInterface::GetComputerSettings().task;

    const fixed safety_height = task_behaviour.safety_height_arrival;
    const fixed target_altitude = waypoint.elevation + safety_height;
    const fixed delta_h = basic.nav_altitude - target_altitude;
    if (positive(delta_h)) {
      const fixed distance = basic.location.Distance(waypoint.location);
      const fixed gr = distance / delta_h;
      if (GradientValid(gr)) {
        buffer.UnsafeFormat(_T("%.1f"), (double)gr);
        AddReadOnly(_("Required glide ratio"), nullptr, buffer);
      }
    }
  }
}